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eikonia
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There are 7 letters in EIKONIA ( A1E1I1K5N1O1 )
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| Eikonia might refer to |
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The eikonal equation (from German Eikonal, which is from Greek εἰκών, image) is a non-linear partial differential equation encountered in problems of wave propagation, when the wave equation is approximated using the WKB theory. It is derivable from Maxwell's equations of electromagnetics, and provides a link between physical (wave) optics and geometric (ray) optics. * The eikonal equation is of the form* * * * * | * * ∇ * u * ( * x * ) * * | * * = * 1 * * / * * f * ( * x * ) * , * * x * ∈ * Ω * * * {\displaystyle |\nabla u(x)|=1/f(x),\ x\in \Omega } * subject to * * * * u * * * | * * * ∂ * Ω * * * = * 0 * * * {\displaystyle u|_{\partial \Omega }=0} * , where * * * * Ω * * * {\displaystyle \Omega } * is an open set in * * * * * * R * * * n * * * * * {\displaystyle \mathbb {R} ^{n}} * with well-behaved boundary, * * * * f * ( * x * ) * * * {\displaystyle f(x)} * is a function with positive values, * * * * ∇ * * * {\displaystyle \nabla } * denotes the gradient and * * * * * | * * ⋅ * * | * * * * {\displaystyle |\cdot |} * is the Euclidean norm. Here, the right-hand side * * * * f * ( * x * ) * * * {\displaystyle f(x)} * is typically supplied as known input. Physically, the solution * * * * u * ( * x * ) * * * {\displaystyle u(x)} * is the shortest time needed to travel from the boundary * * * * ∂ * Ω * * * {\displaystyle \partial \Omega } * to * * * * x * * * {\displaystyle x} * inside * * * * Ω * , * * * {\displaystyle \Omega ,} * with * * * * f * ( * x * ) * * * {\displaystyle f(x)} * being the speed at * * * * x * * * {\displaystyle x} * . * In the special case when * * * * f * = * 1 * * * {\displaystyle f=1} * , the solution gives the signed distance from * * * * ∂ * Ω * * * {\displaystyle \partial \Omega } * . * One fast computational algorithm to approximate the solution to the eikonal equation is the fast marching method. |